The Award database is continually updated throughout the year. As a result, data for the given year is not complete until April of the following year. Annual Reports data is a snapshot of agency reported information for that year and hence might look different from the live data in the Awards Information charts.

Reliability and structural safety are major concerns in the design of next-generation space transportation and systems. Acellent Technologies, Inc. Proposes to develop and innovative, cost-effective and reliable built-in structural diagnostic system forlight-weight large-scale space structures made of composite materials to monitor their integrity during service thereby prolonging life span, red ...

A 24-month Phase II project is proposed to develop and implement models that capture the fidelity of high fidelity physics-based (HFPB) models in a fast-running format. It is anticipated that such models will be incorporated in certain modules of theModular Effectiveness/Vulnerability Assessment (MEVA) code developed for and currently used by the Air Force for assessing munitions effectiveness an ...

This Small Business Innovation Research (SBIR) Phase II project will develop a seismic processing system that enables the delivery of leading-edge seismic services over the Internet and Intranets. Internet-based seismic processing (INSP) enables exploration companies to directly control their critical seismic imaging projects, without the need of purchasing and maintaining expensive hardware and s ...

This Phase I Small Business Innovation Research proposal will develop porous dielectrics as a low-cost, large-area detector for high spatial resolution x-ray detection. An alternative to microchannel plates, porous dielectric electron amplifiers are formed by a thin layer, generally less than 1 mm, of a low density dielectric. The microscopic pores formed in such material, provide a natural, but m ...

A major objection to the use of nuclear energy for space applications is the perceived risk involved in the launching of a fully fueled nuclear reactor. Even when it is pointed out that the fuel is in fact not radioactive, concerns persist. It is acknowledged that to design a reactor able to withstand all conceivable launch accidents would result in an impractical heavy design. To avoid the above ...

This Small Business Innovation Research (SBIR) Phase II project concerns the development and implementation of seismic imaging and inversion methods and parallel computer algorithms to estimate subsurface fluid-flow properties from time-lapse seismic data. In recent years, there has been exponential growth in time-lapse seismology project activity. These projects have yielded seismic difference an ...

60143 Multicomponent shear-wave seismic data reveal information about subsurface lithologies and fluid properties that is difficult or impossible to obtain with compressional-wave data alone. Although commercially available three-dimensional (3D), multicomponent simulations handle many aspects of the 3D behavior of shear waves in complex media, there are serious gaps. In particular, step ...

The objective of this SBIR project is to develop enhanced capabilities to evaluate solid rocket motors (SRMs) using x-ray computed tomography (CT) inspection. In Phase I, approaches were defined for developing technology to improve CT inspectioncapabilities. In Phase II, the technology will be developed and incorporated in practical tools to be delivered to OO-ALC at Hill AFB, where Air Force mi ...

This is a proposal for the fabrication and testing of an Advanced Discrimination Ladar Receiver (ADLR) and its associated 3-D imaging system. A time-slicing technology is incorporated in each pixel of a two-dimensional array. When a laser pulse returnsfrom one or more objects, a high-range-resolution 3-D image is produced from the captured data. The ADLR concept is based upon state-of-the-art i ...